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Impedance matching circuit for current regulation of solid state lighting

a technology of current regulation and impedance matching, applied in the direction of lighting devices, electrical appliances, light sources, etc., can solve the problems of low efficiency, limited to deliver relatively low power, and over-complexity of led drivers

Active Publication Date: 2007-08-09
CHEMTRON RES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0017] The exemplary embodiments of the present invention provide numerous advantages. The exemplary embodiments allow for solid state lighting, such as LEDs, to be utilized with the currently existing lighting infrastructure and to be controlled by any of a variety of switches, such as phase modulating dimmer switches, which would otherwise cause significant operation problems for conventional switching power supplies or current regulators. The exemplary embodiments further allow for sophisticated control of the output brightness or intensity of such solid state lighting, and may be implemented using fewer and comparatively lower cost components. In addition, the exemplary embodiments may be utilized for stand-alone solid state lighting systems, or may be utilized in parallel with other types of existing lighting systems, such as incandescent lamps.

Problems solved by technology

For example, a capacitive drop off-line LED driver from On Semiconductor (Application Note AND8146 / D) is a non-isolated driver with low efficiency, is limited to deliver relatively low power, and at most can deliver a constant current to the LED with no temperature compensation, no dimming arrangements, and no voltage or current protection for the LED.
In general, these various LED drivers are overly complicated, such as using secondary side signals (feedback loops) which have to be coupled with the controller primary side, across the isolation provided by one or more transformers.
Such current mode regulators require relatively many functional circuits while nonetheless continuing to exhibit stability problems when used in the continuous current mode with a duty cycle (or duty ratio) over fifty percent.
While these prior art solutions addressed problems of instability, these hysteretic pulse train converters exhibit other difficulties, such as electromagnetic interference, inability to meet other electromagnetic compatibility requirements, and are comparatively inefficient.
Many of these power supplies (i.e., drivers) are effectively incompatible with the existing lighting system infrastructure, such as the lighting systems typically utilized for incandescent or fluorescent lighting.
These power supplies, generally implemented as a form of switching power supplies, are particularly incompatible with phase-modulating “dimmer” switches utilized to alter the brightness or intensity of light output from incandescent bulbs.
Accordingly, replacement of incandescent lamps by LEDs is facing a challenge: either do a complete rewiring of the lighting infrastructure, which is expensive and unlikely to occur, or develop new LED drivers compatible with phase modulation of the input AC voltage by commercially available and already installed dimmers switches.
This proposal is complicated, requires excessively many components to implement, and is not particularly oriented to AC utility lighting.
When coupled with a dimmer, however, its LED regulation is poor and it does not completely support stable operation of the dimmer in the full range of output loads, specifically when both incandescent and LED lamps are being used in parallel.
Typical prior art, off-line AC / DC converters that drive LEDs using phase modulation from a dimmer switch have several problems associated with providing a quality drive to LEDs, such as: (1) such phase modulation from a dimmer switch can produce a low frequency (about 120 Hz) in the optical output, which can be detected by a human eye or otherwise create a reaction in people to the oscillating light; (2) filtering the input voltage may require quite a substantial value of the input capacitor, compromising both the size of the converter and its life; (3) when the triac 80 is turned on, a large inrush current may be created, due to a low impedance of the input filter, which may damage elements of both the dimmer switch 75 and any LED driver; and (4) power management controllers are typically not designed to operate in an environment having phase modulation of input voltage and could malfunction.
As a consequence, the small charging current may not be enough to charge C1 to the diac 85 breakover voltage during one half cycle.
When a dimmer switch is used with a load drawing or sinking a small amount of current, ILOAD80 will provide inconsistent behavior unsuitable for applications with LED drivers.

Method used

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  • Impedance matching circuit for current regulation of solid state lighting
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  • Impedance matching circuit for current regulation of solid state lighting

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Embodiment Construction

[0036] While the present invention is susceptible of embodiment in many different forms, there are shown in the drawings and will be described herein in detail specific exemplary embodiments thereof, with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the specific embodiments illustrated. In this respect, before explaining at least one embodiment consistent with the present invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of components set forth above and below, illustrated in the drawings, or as described in the examples. Methods and apparatuses consistent with the present invention are capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein, as well a...

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PUM

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Abstract

Exemplary embodiments provide an impedance matching circuit for providing variable power from a dimmer switch having a triac to a switching power supply couplable to solid-state lighting. An exemplary impedance matching circuit includes a first resistor coupled to receive a first current from the switching power supply; a second resistor; and a transistor coupled in series to the second resistor, with the transistor responsive to a gate voltage to modulate a second current through the second resistor in response to a detected level of the first current through the first resistor.

Description

CROSS-REFERENCE TO A RELATED APPLICATION [0001] This application claims priority to and is a conversion of U.S. Provisional Patent Application Ser. No. 60 / 760,157, filed Jan. 20, 2006, inventors Anatoly Shteynberg et al., entitled “Off-Line LED Driver with Phase Modulation”, which is commonly assigned herewith, the contents of which are incorporated herein by reference, and with priority claimed for all commonly disclosed subject matter.FIELD OF THE INVENTION [0002] The present invention in general is related to power conversion, and more specifically, to a system, apparatus and method for supplying power to solid state lighting devices, such as for providing power to light emitting diodes (“LEDs”) and LEDs integrated with digital controllers or processors. BACKGROUND OF THE INVENTION [0003] A wide variety of off-line LED drivers are known. For example, a capacitive drop off-line LED driver from On Semiconductor (Application Note AND8146 / D) is a non-isolated driver with low efficien...

Claims

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Application Information

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IPC IPC(8): H05B39/00
CPCH05B33/0815Y02B20/347H05B33/0851H05B45/10H05B45/3575Y02B20/30H05B45/375H05B45/3725
Inventor SHTEYNBERG, ANATOLYRODRIGUEZ, HARRYZHOU, DONGSHENG
Owner CHEMTRON RES
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